Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes

Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes

<p>Abstract</p> <p>Background</p> <p>Studies on mycorrhiza associated bacteria suggest that bacterial-fungal interactions play important roles during mycorrhiza formation and affect plant health. We surveyed <it>Streptomyces</it> Actinobacteria, known as ant...

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Main Authors: Schrey Silvia D, Erkenbrack Eric, Früh Elisabeth, Fengler Svenja, Hommel Kerstin, Horlacher Nadine, Schulz Dirk, Ecke Margret, Kulik Andreas, Fiedler Hans-Peter, Hampp Rüdiger, Tarkka Mika T
Format: Article
Language:English
Published: BMC 2012-08-01
Series:BMC Microbiology
Online Access:http://www.biomedcentral.com/1471-2180/12/164
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spelling doaj-5670f3c3450f4f5ab29572a99779eada2020-11-24T21:15:30ZengBMCBMC Microbiology1471-21802012-08-0112116410.1186/1471-2180-12-164Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetesSchrey Silvia DErkenbrack EricFrüh ElisabethFengler SvenjaHommel KerstinHorlacher NadineSchulz DirkEcke MargretKulik AndreasFiedler Hans-PeterHampp RüdigerTarkka Mika T<p>Abstract</p> <p>Background</p> <p>Studies on mycorrhiza associated bacteria suggest that bacterial-fungal interactions play important roles during mycorrhiza formation and affect plant health. We surveyed <it>Streptomyces</it> Actinobacteria, known as antibiotic producers and antagonists of fungi, from Norway spruce mycorrhizas with predominantly <it>Piloderma</it> species as the fungal partner.</p> <p>Results</p> <p>Fifteen <it>Streptomyces</it> isolates exhibited substantial variation in inhibition of tested mycorrhizal and plant pathogenic fungi (<it>Amanita muscaria, Fusarium oxysporum</it>, <it>Hebeloma cylindrosporum</it>, <it>Heterobasidion abietinum, Heterobasidion annosum</it>, <it>Laccaria bicolor, Piloderma croceum</it>). The growth of the mycorrhiza-forming fungus <it>Laccaria bicolor</it> was stimulated by some of the streptomycetes, and <it>Piloderma croceum</it> was only moderately affected. Bacteria responded to the streptomycetes differently than the fungi. For instance the strain <it>Streptomyces</it> sp. AcM11, which inhibited most tested fungi, was less inhibitory to bacteria than other tested streptomycetes. The determined patterns of <it>Streptomyces</it>-microbe interactions were associated with distinct patterns of secondary metabolite production. Notably, potentially novel metabolites were produced by strains that were less antagonistic to fungi. Most of the identified metabolites were antibiotics (e.g. cycloheximide, actiphenol) and siderophores (e.g. ferulic acid, desferroxiamines). Plant disease resistance was activated by a single streptomycete strain only.</p> <p>Conclusions</p> <p>Mycorrhiza associated streptomycetes appear to have an important role in inhibiting the growth of fungi and bacteria. Additionally, our study indicates that the <it>Streptomyces</it> strains, which are not general antagonists of fungi, may produce still un-described metabolites.</p> http://www.biomedcentral.com/1471-2180/12/164
collection DOAJ
language English
format Article
sources DOAJ
author Schrey Silvia D
Erkenbrack Eric
Früh Elisabeth
Fengler Svenja
Hommel Kerstin
Horlacher Nadine
Schulz Dirk
Ecke Margret
Kulik Andreas
Fiedler Hans-Peter
Hampp Rüdiger
Tarkka Mika T
spellingShingle Schrey Silvia D
Erkenbrack Eric
Früh Elisabeth
Fengler Svenja
Hommel Kerstin
Horlacher Nadine
Schulz Dirk
Ecke Margret
Kulik Andreas
Fiedler Hans-Peter
Hampp Rüdiger
Tarkka Mika T
Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
BMC Microbiology
author_facet Schrey Silvia D
Erkenbrack Eric
Früh Elisabeth
Fengler Svenja
Hommel Kerstin
Horlacher Nadine
Schulz Dirk
Ecke Margret
Kulik Andreas
Fiedler Hans-Peter
Hampp Rüdiger
Tarkka Mika T
author_sort Schrey Silvia D
title Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
title_short Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
title_full Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
title_fullStr Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
title_full_unstemmed Production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
title_sort production of fungal and bacterial growth modulating secondary metabolites is widespread among mycorrhiza-associated streptomycetes
publisher BMC
series BMC Microbiology
issn 1471-2180
publishDate 2012-08-01
description <p>Abstract</p> <p>Background</p> <p>Studies on mycorrhiza associated bacteria suggest that bacterial-fungal interactions play important roles during mycorrhiza formation and affect plant health. We surveyed <it>Streptomyces</it> Actinobacteria, known as antibiotic producers and antagonists of fungi, from Norway spruce mycorrhizas with predominantly <it>Piloderma</it> species as the fungal partner.</p> <p>Results</p> <p>Fifteen <it>Streptomyces</it> isolates exhibited substantial variation in inhibition of tested mycorrhizal and plant pathogenic fungi (<it>Amanita muscaria, Fusarium oxysporum</it>, <it>Hebeloma cylindrosporum</it>, <it>Heterobasidion abietinum, Heterobasidion annosum</it>, <it>Laccaria bicolor, Piloderma croceum</it>). The growth of the mycorrhiza-forming fungus <it>Laccaria bicolor</it> was stimulated by some of the streptomycetes, and <it>Piloderma croceum</it> was only moderately affected. Bacteria responded to the streptomycetes differently than the fungi. For instance the strain <it>Streptomyces</it> sp. AcM11, which inhibited most tested fungi, was less inhibitory to bacteria than other tested streptomycetes. The determined patterns of <it>Streptomyces</it>-microbe interactions were associated with distinct patterns of secondary metabolite production. Notably, potentially novel metabolites were produced by strains that were less antagonistic to fungi. Most of the identified metabolites were antibiotics (e.g. cycloheximide, actiphenol) and siderophores (e.g. ferulic acid, desferroxiamines). Plant disease resistance was activated by a single streptomycete strain only.</p> <p>Conclusions</p> <p>Mycorrhiza associated streptomycetes appear to have an important role in inhibiting the growth of fungi and bacteria. Additionally, our study indicates that the <it>Streptomyces</it> strains, which are not general antagonists of fungi, may produce still un-described metabolites.</p>
url http://www.biomedcentral.com/1471-2180/12/164
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